COMPARISON OF SANDWICH COMPOSITE WING STRUCTURE WITH BALSA WOOD (CASE STUDY OF UAV AIRCRAFT FIXED WING VTOL VX-2)

IF 0.1 0 MUSIC

Revista Vortex-Vortex Music Journal Pub Date : 2022-07-01 DOI:10.28989/vortex.v3i2.1236

D. Santoso, K. Hariyanto

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Abstract

UAV aircraft with a fixed wing configuration with multi-rotor are aircraft capable of vertical take-off and landing (VTOL). In designing the wing structure of aircraft, the weight factor and the strength of the wing structure are factors that need to be considered. The use of sandwich composite materials on UAV wings is expected to be able to meet the requirements of UAV aircraft, namely having a light weight, having high rigidity and strength. In this study, a comparative analysis the strength of the sandwich composite wing structure with the balsa wood wing of the UAV VTOL VX-2 aircraft was carried out. The steps taken are to model the composite wing structure of sandwiches and balsa wood using CATIA. Performing the process of structural analysis using ANSYS software. Both half-span models are subjected to lift and vertical take-off loads. From the analysis results, the sandwich composite wing (glass fiber skin with styrofoam core) is stronger than the balsa wood wing structure under vertical take off loads. While the VTOL rods, upper and lower spars of the balsa wood wing model are stronger than the sandwich structure under lift loads, but overall the sandwich wing structure is stronger than the balsa wood wing

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轻木夹层复合材料机翼结构比较(以无人机固定翼vtol vx-2为例)

具有多旋翼固定翼结构的无人机是能够垂直起降(VTOL)的飞机。在飞机机翼结构设计中，重量因子和机翼结构强度是需要考虑的因素。三明治复合材料在无人机机翼上的应用有望满足无人机的要求，即重量轻，刚性和强度高。本研究对VX-2型无人机垂直起降飞机的夹层复合材料机翼结构与轻木机翼进行了强度对比分析。所采取的步骤是利用CATIA对三明治和巴尔沙木的复合机翼结构进行建模。利用ANSYS软件进行结构分析过程。两种半跨模型都要承受升力和垂直起飞载荷。从分析结果来看，夹层复合材料机翼(玻璃纤维表皮+泡沫聚苯乙烯芯)在垂直起飞载荷下比轻木机翼结构更强。在升力载荷作用下，轻木机翼模型的垂直起降杆、上下梁比夹层结构更坚固，但整体上夹层结构比轻木机翼更坚固

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Revista Vortex-Vortex Music Journal MUSIC-

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审稿时长

12 weeks